Latest Articles for Experimental Research

Research reveals how light influences Bose-Einstein Condensates, showing unique quantum behaviors.

Research on QPCs reveals insights into electron behavior and conductance plateaus.

Research reveals complex behaviors in neutron-rich nuclei and their pygmy states.

Recent anomalies in b quark decays may signal new physics beyond the Standard Model.

Research on edge states and shot noise reveals insights into quantum behaviors.

Research on neutrinos reveals connections to fundamental forces and interactions.

Researchers enhance data filtering in Belle II experiments using neural networks to identify relevant events.

Research improves efficiency of frequency doublers using thin-film lithium niobate.

Researchers study neutron behavior under spin influences in high-energy collisions at RHIC.

Researchers study photon interactions to uncover new physics in heavy-ion collisions.

A fresh approach reveals insights into hadron structure via Compton amplitude analysis.

Researchers search for tiny charged particles that may hold dark matter secrets.

Researchers investigate rare Higgs boson decays for insights into particle physics.

A proposed experiment aims to reveal gravity's quantum properties through innovative measurement techniques.

Exploring how topological insulators react to light pulses and their implications.

A look into the role of top squarks in understanding supersymmetry.

Recent studies reveal key aspects of rapidity gaps in proton-lead collisions.

Researchers search for lepton-flavour violation in particle collisions at a major facility.

Researchers demonstrate effective storage of single photons in microfabricated devices.

An overview of fully-heavy multiquarks and their mass behavior.

Research on charmed meson decays reveals key information about particle interactions.

New insights into shot noise behavior in tiny electronic devices.

Tiny neutrino masses suggest unexplored areas in particle physics.

Study of diboson production reveals insights into fundamental interactions and potential new physics.

This study examines the properties of kaons and strangeonium using Regge phenomenology methods.

Researchers are revealing new insights into materials through non-Abelian gauge engineering and spectral topology.

Study reveals critical points and phase transitions in a one-dimensional spin model.

Recent findings enhance understanding of non-open charm hadrons and their interactions.

A look into the mechanics of the chiral knife edge rattleback and its spin behavior.

Exploring the significance of rare top quark decays in particle physics.

This article explores water experiments simulating black holes and unique wave behaviors.

A look into mesons and their significance in particle physics.

Exploring heavy-light mesons and their significance in understanding particle interactions.

A look into the shapes and energy properties of tensionless membranes.

Research reveals how physical strains affect superconductivity in CaKFe As material.

Researchers push boundaries to detect vacuum birefringence using innovative laser methods.

Study reveals how rubidium atoms emit light together in a hollow-core fiber.

Understanding how neutrons interact within atomic nuclei shapes nuclear physics.

Recent findings suggest a possible light charged Higgs boson in particle decays.

Exploring the significance of pions in the interactions of fundamental particles.